JP2004313154A - Water-feeding device for tree planting in desert or arid region - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a water-feeding device for feeding necessary water for growing plants in a desert, etc., where water is drained. <P>SOLUTION: This feeding device is constituted by a water-passing tube arranged at the positions where the roots of the plants grow and passing cold water, and a pump for sending cold water to the water passing pipe so as to give condensed water provided by cooling the surroundings of the water-passing tube by passing water through. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an apparatus for supplying water necessary for growing plants, for example, crops in arid land, for example, in desert areas.
[0002]
[Prior art]
When growing plants, such as agricultural products, in deserts with little water, the biggest problem is the water that must be supplied to the agricultural products. In the United States and other countries, when cultivating agricultural products in places with low water, they pump up groundwater or draw pipes from far away to pass water, and supply water to the agricultural products with sprinklers. In sprinklers, more water is scattered in the fields than is needed by agricultural products, and more water is wasted, most of which evaporates. Therefore, this method cannot be adopted unless the water is abundant to some extent. In many parts of the desert there are by far no sources of water to pull pipes through.
[0003]
There is a device that installs a pipe through which water is passed through a field and pierces the pipe to supply water like a drip to a place where crops are growing. According to this apparatus, agricultural products can be grown in deserts and the like with much less water since water is not sprinkled like a sprinkler.
[0004]
[Problems to be solved by the invention]
Growing agricultural products always requires water. Because sprinklers consume large amounts of water, the method of supplying water is limited in this way. Agricultural products cannot be supplied without groundwater or abundant water nearby. Even if it is supplied to agricultural products by drip, it consumes water and cannot be grown without a nearby water source.
[0005]
The present invention has been made to achieve the above object, and has as its object to supply water to a plant, for example, a crop, without consuming water in a place with little water.
[Means for achieving the object]
The present invention, in order to achieve the above object,
As one of them, it is composed of a water pipe through which cold water is placed at the place where the root of the plant is stretched, and a pump that sends cold water to this water pipe, and the water around the water pipe is cooled and condensed by the passage of cold water. To be supplied to plants,
As the second part, it is composed of a water pipe through which seawater is placed at the place where the roots of the plants are stretched, and a pump for sending low-temperature seawater to the water pipe. To supply the condensed water to the plants,
As the third feature, a water pipe through which cold water passes, which is disposed at a place where the root of the plant is stretched, a pump that sends cold water to the water pipe, and a cooling device that cools the water sent to the water pipe, the water pipe through which cold water passes The surrounding area is cooled and condensed water is given to the plants,
Fourth, the power required for the pump is supplied by power obtained from natural energy such as solar cells and wind power,
As the fifth, the power required for the cooling device is supplied by power obtained from natural energy such as solar cells and wind power,
Sixth, the cooling device is configured by using a Peltier element or a refrigerant.
BEST MODE FOR CARRYING OUT THE INVENTION
[Action]
The present invention has significant features not found in the prior art in that it obtains on-site, rather than supplying the water needed to grow plants, such as agricultural products. Put out the cold cup in the refrigerator, and after a while, water drops adhere to the surface of the cup. This is because the water vapor in the atmosphere is cooled and the humidity near the cup becomes 100% or more, and the water vapor exceeding this is condensed to form water droplets and adhere to the surface of the cup. Even if the humidity is 100%, the amount of water vapor in the atmosphere differs between when the temperature is high and when the temperature is low. Even if the humidity is the same value, the higher the temperature, the more the amount of water vapor is included, and the lower the temperature, the less the amount of water vapor included. For this reason, when a cup with a low temperature is placed in the atmosphere, the temperature around the cup drops and the humidity becomes 100% or more. Water vapor exceeding this becomes water droplets and adheres to the surface of the cup.
[0007]
Hereinafter, the present invention will be described in detail based on embodiments shown in the drawings. FIG. 1 shows the principle of the present invention, and shows a cross section in which a water pipe 1 through which cold water flows is embedded in soil 2. A place with little water, for example, desert soil 2 is dry and has good air permeability. The temperature of the desert may exceed 50 ° C. in the daytime. At this time, when cold water flows through the water pipe 1, the soil 2 around the water pipe 1 is cooled. When the soil 2 is cooled, the air contained in the soil 2 is also cooled, and the water vapor contained in the air is condensed and changes to water. This water is absorbed by the soil 2 around the water pipe 1. Of course, if there is no water vapor in the air contained in the soil 2 around the water pipe 1, condensed water cannot be obtained, but where there is no water vapor in natural soil air. There is no. The soil 2 having low moisture has good air permeability, and the temperature difference between daytime and nighttime is large in deserts and the like, and nighttime dew falls at nighttime to give humidity to the air in the soil. Therefore, even if the air around the water pipe 1 is cooled and condensed, the water vapor in the atmosphere is supplied to the soil 2. Mixing a water retention agent with the soil around the water pipe 1 so that the condensed water does not easily evaporate allows the water to be more effectively supplied to the crop.
[0008]
FIG. 2 shows a means for obtaining water required for growing plants using seawater. Seawater contains salt, which cannot be used directly as water for growing plants. For this reason, even if there is a sea nearby, conventional techniques have not been able to grow plants, such as agricultural products, in the desert. In the desert, temperatures can exceed 50 ° C when the sun is shining directly during the day. The temperature of the seawater at this time does not exceed 30 ° C. even at the surface, and at a depth of 40 to 50 m, the temperature is sometimes lower than 20 ° C. In the desert near the sea, the temperature is higher on the land during the day, so the wind blows from the sea to the desert. Above the sea there is abundant water vapor from the seawater, which flows into the desert. The desert near the sea has little water, but this atmosphere contains a lot of water vapor. Insects and small animals living in the desert know this, and maintain their lives by obtaining water droplets attached to their bodies in the wind blowing from the sea to the land. When the operation of the pump P shown in FIG. 2 is started, seawater is pumped from the water suction pipe 10 to the water storage tank 11. Since the lower the temperature of this seawater, the more water vapor can be condensed, it is better to pump the seawater as deep as possible. The water storage tank 11 is covered with a heat insulating agent so as not to be affected by the temperature in the atmosphere. A water pipe 1 is buried under the row where the crops are grown as shown in FIG. The depth of the buried water pipe 1 varies depending on the type of the crop, but it is best to make the depth at which the crop is rooted. The water pipe 1 is gradually lowered from left to right in the drawing (down by about 1 m at 100 m). If the water storage tank 11 is installed at a somewhat high place, the water pipe 1 and the return pipe 3 will be pumped. Flows without any power. The seawater that has passed through the return pipe 3 is returned to the sea.
[0009]
As described above, the daytime temperature of the desert may exceed 50 ° C., and when seawater having a temperature of, for example, 20 ° C. passes through the water pipe 1, the temperature difference may be as high as 30 ° C. If the temperature difference is as high as 30 ° C., the water vapor contained in the soil around the water pipe 1 is condensed into water, absorbed by the soil, and can be used by crops. The water vapor of the air in the soil is supplied by night and night dew as described above. What should be noted in this water supply device is that seawater is never leaked from the water pipe 1 or the return pipe 3. If seawater leaks from these pipes and flows into the soil, it will not be possible to grow crops without removing all soil containing seawater.
[0010]
There are few seas near the desert, and deserts without the sea are much more common. The water supply device shown in FIG. 3 can obtain water necessary for crops even when there is no fresh water or seawater nearby. The water supply device includes a water storage tank 4 for storing water, a water pipe 1 and a return pipe 3 buried under crops to be grown, a pump P for passing water through the water pipe 1, and a water pipe 1. And a cooling device 6 for cooling the flowing water.
[0011]
The water stored in the water storage tank 4 is circulating water that returns to the water storage tank 4 after passing through the water pipe 1, the return pipe 3, and the pump arranged below the row where the agricultural products grow. If the water passing through the water pipe 1 is not cold water having a low temperature, water around the water pipe 1 due to condensation cannot be produced. No matter how low the temperature of the water is first passed through the water pipe 1 or the like, the water immediately warms up and no condensation occurs. Therefore, in this water supply device, the water in the water storage tank 4 is cooled by the water cooling device 6 as shown in FIG. If the temperature of the water in the water storage tank 4 is reduced by cooling, the water flowing through the water pipe 1 is cooled, and condensation occurs around the water to obtain water necessary for agricultural products. It is a matter of course that the outer wall of the water storage tank 1 uses a heat insulating agent or the like so that the temperature does not rise due to the influence of sunlight or the like. The cooling device 6 may be a device using a refrigerant or a device using a Peltier element using a semiconductor. In this water supply device, the water in the water storage tank 4 and the water pipe 1 does not decrease if these are completely sealed. You have to get the water you need first, but then you don't need it in principle. Therefore, water can be supplied to the crop even in a place far from the sea.
[0011]
Traditionally, deserts have very little need for electricity, and there is no transmission line to send electricity from the power plant. As for the pumps and cooling devices required for the water supply device, those that are driven by electricity are easier to maintain than those that are driven by engines. However, installing transmission lines would be costly. Fortunately, the desert has ample land. Less water means less rain and more sunny days. In addition, there are no obstructive buildings, and as the temperature rises, an updraft occurs and the wind blows. If a solar cell or a windmill for wind power generation is installed in such a place, a considerable amount of electric power can be obtained. Therefore, the power of the pump and the cooling device used for the water supply device was supplied by natural energy such as solar cells and wind power generation.
[0012]
The examples so far described are means for obtaining water necessary for agricultural products in deserts where water is scarce. FIG. 4 shows a cross section when necessary water is obtained and used to grow agricultural products. At the bottom of the figure, there is a local soil 20 on which solidified water-repellent soil 19 is spread. It is made of a soft, granular material that, when pressure is applied, becomes integral with the other particles and impedes the passage of water. When it rains, it has a role to keep water from penetrating it and keeping it up. Above the solidified water-repellent soil 19 is a layer of water-retaining mineral soil 18.
[0013]
The water pipe 1 is provided in the water-retaining mineral soil 18. Since water condensed around the water pipe 1 is formed, a water retention agent is contained above and below the water pipe 1 so as to prevent the water from escaping as much as possible. The reason for including minerals in the soil here is that agricultural products do not absorb minerals unless they are dissolved in water. Putting nutrients where the condensed water is made allows the minerals to be absorbed by the produce without spilling out. On the layer above the mineral soil 18, local sand and soil 17 are laid. Agricultural products have stems from the ground surface to the roots and require a certain depth. In order to maintain this depth, it is necessary to lay soil, and since this is to maintain the depth, local sand and soil 17 were used. Some heavier pebbles are spread over the uppermost layer 15 of the farmland, that is, the surface of the ground. This is to prevent the sand, soil 17 and mineral soil 18 from being blown by the wind. Night dew falls at night, but in order to make this water seep into the ground as much as possible, it is better to use something that does not inhale water like pebbles on the surface.
[0014]
In some agricultural products, leaves and fruits may be damaged and withered by the dust blown by the wind. Therefore, a protection sheet 14 is provided like a greenhouse in order to protect from flying dust. The protective sheet 14 is air-permeable and transparent, and agricultural products can perform carbonic acid assimilation by passing light.
[0015]
FIG. 5 shows a cross section of the growth tube 30. The surface inside the growing tube 30 is lower than the other ground surface 15. In this case, since the seedlings 29 to be grown here may be withered when irradiated with strong direct sunlight, the shadows are formed by the growing tube 30. In addition, even if the temperature of the other ground surface 15 becomes hot, this temperature is to be protected from being directly applied to the seedling 29.
[0016]
Although the above-described embodiments have mainly been described with respect to agricultural products, the present invention is not limited to agricultural products. For example, tree planting or planting a kind of turf is performed to prevent dust from flying, but it can also be used as a means for growing such plants. In addition, it may be possible to grow grass necessary for herbivores.
[0017]
【The invention's effect】
By configuring the present invention as shown in the above embodiment, even in a desert or the like with very little water, necessary water can be obtained by condensation, plants can be grown, and production of agricultural products can be increased. Can be planned.
[Brief description of the drawings]
Fig. 1 Principle diagram of obtaining water condensed with cold water. Fig. 2 Diagram showing means for obtaining water necessary for growing plants with seawater. Fig. 3 Necessary for growing plants with circulating water. Fig. 4 shows a means of obtaining fresh water. Fig. 4 is a sectional view of actually growing plants. Fig. 5 is a sectional view of a growing tube.
1 .... water pipe 2 .... soil 3 .... return pipe 4, 11 .... water storage tank 6 .... cooling device 14 .... protection sheet 18 .... water retention mineral soil 19 ... solidified water repellent soil 30 .... growth pipe

Claims (6)

It is composed of a water pipe through which cold water is placed at the place where the roots of the plant are stretched, and a pump that sends cold water to this water pipe. A water supply device for greening in desert and arid regions. It is composed of a water pipe through which seawater is placed at the place where the roots of the plants are stretched, and a pump that sends low-temperature seawater to this water pipe. A water supply device for revegetation in desert and arid regions, wherein water is provided to plants. It consists of a water pipe through which cold water is placed at the place where the roots of the plant are stretched, a pump that sends cold water to this water pipe, and a cooling device that cools the water sent to the water pipe. A water supply device for greening in desert and arid regions, wherein condensed water is provided to plants. The water supply device for greening in desert areas and arid areas according to claim 1, wherein electric power obtained by natural energy such as solar cells or wind power is supplied to the pump. The water supply device for greening in desert and arid regions according to claim 3, wherein electric power obtained by natural energy such as solar cells or wind power is supplied to the cooling device. 4. The water supply device for greening in desert and arid regions according to claim 3, wherein the device is a cooling device using a Peltier element or a refrigerant.

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